Lysogeny WORLD OF MICROBIOLOGY AND IMMUNOLOGY
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The treatment for Lyme disease is antibiotic therapy. If
a patient has strong indications of Lyme disease (symptoms
and medical history), the doctor will probably begin treatment
on the presumption of this disease. The American College of
Physicians recommends treatment for a patient with a rash
resembling EM or who has arthritis, a history of an EM-type
rash, and a previous tick bite.
The physician may have to adjust the treatment regimen
or change medications based on the patient’s response.
Treatment can be difficult because B. burgdorfericomes in sev-
eral strains (some may react to different antibiotics than others)
and may even have the ability to switch forms during the course
of infection. Also, B. burgdorferican shut itself up in cell niches,
allowing it to elude antibiotic actions. Finally, antibiotics can kill
B. burgdorferionly while it is active rather than dormant.
If aggressive antibiotic therapy is given early, and the
patient cooperates fully and sticks to the medication schedule,
recovery should be complete. Only a small percentage of
Lyme disease patients fail to respond or relapse (have recur-
ring episodes). Most long-term effects of the disease result
when diagnosis and treatment is delayed or missed. Co-infec-
tion with other infectious organisms spread by ticks in the
same areas as B. burgdorferi(babesiosis and ehrlichiosis, for
instance) may be responsible for treatment failures or more
severe symptoms. Lyme disease has been responsible for
deaths, but that is rare.
An genetically engineered vaccinefor Lyme disease
was made available in the United States in 1999. Immunity
requires three injections, the first two given a month apart; a
third injection given a year later. Clinical trials conducted in
1997 from a large study of 10,000 adults in many locations
showed strong promise of the vaccine’s safety and efficacy.
The Centers for Disease Controlrecommends the vaccine for
those who live and work in Lyme disease endemic areas, and
who have repeated and prolonged exposure to tick-infested
areas (e.g., park rangers, landscape workers). The Lyme dis-
ease vaccine will not prevent other diseases spread by ticks,
however, so protective measures against tick bites should still
be observed. The vaccine is not recommended for travelers
who will have little exposure when visiting areas where Lyme
disease has occurred.
Precautions to avoid contact with ticks include moving
leaves and brush away from living quarters. Most important
are personal protection techniques when outdoors, such as
using repellents containing DEET, wearing light-colored
clothing to maximize ability to see ticks, tucking pant legs into
socks or boot top, and checking children frequently for ticks.
LYMPHOCYTES•seeTCELLS ORTLYMPHOCYTES
LLysogenyYSOGENY
Lysogeny refers to a process whereby a virus that specifically
infects a bacterium, a bacteriophage(which means “devourer
of bacteria”), achieves the manufacture of copies of its
deoxyribonucleic acid(DNA) genetic material by integrating
the viral DNA into the DNA of the host bacteria. The inserted
viral DNA is then replicated along with the host DNA.
The nature of lysogeny remained unresolved for many
years following the discovery of the bacteriophage by Felix
d’Hérelle in 1915. The sudden appearance of virus in cultures
of bacteria was at first thought to be the result of viral con-
tamination. The acceptance of lysogeny as a real phenomenon
came almost 40 years later.
In lysogeny no new virus particles are made. Instead,
the virus essentially remains dormant, while ensuring that its
genetic material continues to be made. A stress to the bac-
terium, such as exposure of the bacterium to ultraviolet light,
triggers the viral DNA to separate from the bacterial DNA.
Then, new virus particles will form in what is known as the
lytic cycle. The two processes of lysogeny and lysis are under
a system of control first explained by the French biologist
André Lwoff in the early 1950s.
Lysogeny is of benefit to the virus, allowing the genetic
material to persist in the absence of a virus manufacture.
Lysogeny can also be beneficial to the host bacterium. The pri-
mary benefit to bacteria occurs when the integrated viral DNA
contains a genethat encodes a toxin. Possession of the toxin
can be advantageous to those bacteria that establish an infec-
tion as part of their strategy of replication. For example, tox-
ins encoded by bacteriophage genes are the main cause of the
symptoms associated with the bacteria diseases of tetanus,
diphtheria, and cholera.
The process of lysogeny has been studied most inten-
sively in a bacteriophage that is designated as lambda. In the
lambda bacteriophage, the establishment of lysogeny
depends on the presence of three viral proteins. These are
designated cI (“c-one”), cII, and cIII. The cI protein is man-
ufactured first, using host molecules that interpret the infor-
mation for the protein contained in the viral DNA, following
the entry of the viral DNA into the host bacterium. At this
point the viral DNA is not integrated into the host genome,
but exists as an independent circle. CI is a so-called repres-
sor protein that operates to occupy sequences on the viral
genome that would otherwise be used to make the various
viral proteins that are needed to assemble the new virus par-
ticles. By occupying these sites, cI prevents viral proteins
from being produced.
At about the same time, the viral DNA becomes inte-
grated into the host DNA and the cII and cIII proteins are man-
ufactured. These latter proteins assist cI in the task of blocking
synthesis of viral components. Accordingly, cI, cII, and cIII
function to maintain the lysogenic state. The cII protein func-
tions to make the manufacture of cI by the host’s transcription
machinery more efficient. The cIII protein helps protect the cII
protein from being degraded by host enzymes.
Once lysogeny is established, the continued manufac-
ture of the cI protein will maintain the integrated state of the
viral DNA.
The cI protein maintains its own transcription. The
binding of cI to a certain stretch of DNA promotes the recog-
nition and use of the gene for cI to manufacture the cI protein.
This is known as positive control. As well, the protein exerts a
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